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rella zofingiensis
(Chlorophyta). Process Biochem
43:1288-1292
Szabo NJ, Matulka RA, Chan T (2013) Safety evaluation
of whole algalin protein (WAP) from
Chlorella proto-
thecoides
. Food Chem Toxicol 59:34-45
Tan RR, Foo DCY, Avisom KB, Ngm DKS (2009) The
use of graphical pinch analysis for visualizing water
footprint constraints in biofuel production. Appl
Energy 86:605-609
Tang D, Han W, Li P, Miao X, Zhong J (2011) CO
2
bio-
fixation and fatty acid composition of
Scenedesmus
obliquus
and
Chlorella pyrenoidosa
in response to dif-
ferent CO
2
levels. Bioresour Technol 102:3071-3076
Van Den Hende S, Vervaeren H, Boon N (2012) Flue gas
compounds and microalgae: (bio-) chemical interac-
tions leading to biotechnological opportunities. Bio-
technol Adv 30:1405-1424
Wayama M, Ota S, Matsuura H, Nango N, Hirata A,
Kawano S (2013) Three-dimensional ultrastructural
study of oil and astaxanthin accumulation during
encystment in the green alga
Haematococcus pluvia-
lis
. PLoS One 8:53618
Wijffels RH, Kruse O, Hellingwerf KJ (2013) Poten-
tial of industrial biotechnology with cyanobacteria
and eukaryotic microalgae. Curr Opin Biotechnol
24:405-413
Wu LF, Chen PC, Huang AP, Lee CM (2012) The feasibil-
ity of biodiesel production by microalgae using indus-
trial wastewater. Bioresour Technol 113:14-18
Xie B, Bishop S, Stessman D, Wright D, Spalding MH,
Halverson LJ (2013)
Chlamydomonas reinhardtii
thermal tolerance enhancement mediated by a mutual-
istic interaction with vitamin B12-producing bacteria.
Int Soc Microb Ecol 7:1544-1555
Yen HW, Hu IC, Chen CY, Ho SH, Lee DJ, Chang JS
(2013) Microalgae-based biorefinery-from biofuels
to natural products. Bioresour Technol 135:166-1S74
Yuan JP, Chen F, Liu X, Li XZ (2002) Carotenoid com-
position in the green microalga
Chlorococcum
. Food
Chem 76:319-325
tic wastewater and biomass production for sustainable
biofuels production. Appl Energy 88:3411-3424
Rezanka T, Nedbalova L, Kolouchova I, Sigler K (2013)
LC-MS/APCI identification of glucoside esters and
diesters of astaxanthin from the snow alga
Chlamydo-
monas nivalis
including their optical stereoisomers.
Phytochemistry 88:34-42
Rosenberg JN, Mathias A, Korth K, Betenbaugh MJ,
Oyler GA (2011) Microalgal biomass production and
carbon dioxide sequestration from an integrated etha-
nol biorefinery in Iowa: A technical appraisal and eco-
nomic feasibility evaluation. Biomass and Bioenergy
35:3865-76
Sarada R, Pillai Manoj G, Ravishankar GA (1999) Phyco-
cyanin from
Spirulina sp.
: influence of processing of
biomass on phycocyanin yield, analysis of efficacy of
extraction methods and stability studies on phycocya-
nin. Process Biochem 34:795-801
Sharma YC, Singh B, Korstad J (2011) A critical review
on recent methods used for economically viable and
eco-friendly development of microalgae as a poten-
tial feedstock for synthesis of biodiesel. Green Chem
13:2993-3006
Shi Y, Sheng J, Yang F, Hu Q (2007) Purification and
identification of polysaccharide derived from
Chlo-
rella pyrenoidosa
. Food Chem 103:101-105
Singh B, Guldhe A, Rawat I, Bux F (2014) Towards a sus-
tainable approach for development of biodiesel from
plant and microalgae. Renew Sustain Energy Rev
29:216-245
Skjanes K, Rebours C, Lindblad P (2013) Potential for
green microalgae to produce hydrogen, pharmaceuti-
cals and other high value products in a combined pro-
cess. Crit Rev Biotechnol 33:172-215
Spolaore P, Joannis-Cassan C, Duran E, Isambert A (2006)
Commercial applications of microalgae. J Biosci Bio-
eng 101:87-96
Sun N, Wang Y, Li YT, Huang JC, Chen F (2008)
Sugar-based growth, astaxanthin accumulation and
carotenogenic transcription of heterotrophic
Chlo-
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